Wobbling disk pump



April 28, 1953 A. SALGUES WOBBLING DISK PUMP 2 SHEETS-SHEET 1 Filed Aug. 10, 1949 Invent or ALBERT SALGUES Attor ey.

April 28, 1953 A SALGUES WOBBLING DISK PUMP 2 SHEETSSHEET 2 Filed Aug. 10, 1949 Inventor:

ALBERT SALGUES.

Attorney.

Patented Apr. 28, 1953 OFFICE WOBBLING DISK PUMP Albert Salgues, Paris France Application August 10, 1949', Serial No. 109,471

This invention relates to pumps and more especially to a pump driven by a rotating member,

but-requiring neither a, stuifing box nor a rotary slide orother valve, the only rotating element 1 being the driving shaft and a head fixed to the ,shaft, and driven by it. These two parts are altogether separated from the pumping mecha- -nisin proper and are at no time in contact wit 1 the liquid orother fluid conveyed.

Consequently, provided the conveying parts of the pump are made of suitable material, a pump according to this invention is particularly suitable for conveying acids and other corrosive fluids. I

In the drawing affixed to this specification and forming part thereof, an embodiment of the new pump according to this invention is illustrated diagrammatically by way of example. Inthe drawing:

Fig. 1 is a front view, Fig. 2 an axial section,

Fig. 3 a plan view of the intake half and Fig. 4 is a separate axial section of the pumping mechanism and of the two main pumping elements, in

a a different position of the parts than in Fig. 2.

Referring to the drawing in detail, the pump embodying the present invention is there shown to include a casing I, which in its rear part forms a bearing sleeve 2 for the driving shaft 3 supported in two ball bearings 4 and 4. The outer ball race of bearing 4 is fixed in the sleeve 2, while the bearing 4 is held in the sleeve with a slight axial clearance, allowing it to giveway to accommodate an elongation of the shaft. The two bearings are held in spaced relation by a tabular spacer 5. A cap 6 is provided covering the bearing sleeve 2 and fixed thereonby means of screws 7. A packing ring 8 in the cap 6 serves to protect the operative portion of the shaft from dust.

On the inner end of the shaft is fixed the driving head 9, a short cylindrical block, the free surface of which extends at an angle, shown here as of 85 degrees to the shaft axis. In the head is formed an annular cavity 9 filled with a rubber ring I and a graphite ring I I whose free surface is flush with the inclined surface of the head 9. g

This inclined surface is in permanent contact with the movable pumping element or piston I2, which is a block shaped substantially as a segment of a sphere with a plane active surface I2 corresponding to a diametrical plane of the sphere defining the piston I2. This block is formed with a cylindrical cavity 36 having a plane bottom 3 I extending in parallel to the active conveying surface I2 of the piston. A cylindrical 4 Claims. (Cl. 103133) flange 32 concentric with the cavity 36 and extending to the rear of thepiston carries a pliable membrane 21 made of rubber or the like, fixed in position on the flange 32 by a flat ring 33 formed with a cam face 34 on its border. This ring 33 andthe rubber disk 27! are fixed in posi tion on the piston flange by 'a clamping ring 35 which may be threaded on the flange as shown. The fixed member of the pumping mechanism proper, which cooperates with the piston I2 in the formation of the "pumping chamber, is an element 36 having a flattened conical surface and which is seated ina cylindrical cavity of a casing cover 31 which also carries the pressure and suction conduits 24" and '25 opening into the cavity 7 of the cover at opposite sides of the vertical medial line of the latter. The conical surface of element 36 has an apex angle of 1'70 degrees. It is formed with a radial slot 38 disposed between the pressure and suction conduits (Fig. 1) and .into which extends a flat vane 39 seated in a separating the inner ends of the suction and presradial groove 40 of the piston and held'therein by a coil spring 4! resting against a screw bolt 42 which closes a hollow boss 43 on the cover. This vane 39 acts as an axially movable partition sure conduits.

In a hemispherical depression 44 at its apex the conical body 36 holds a ball 45-which also extends into a central hemispherical cavity 46 of .The fingers 41 are slidably received in depressions 48 formed in the conical face of element 36 which is fixed to the casing cover .by means of screws 49.

The shaft head 9 resting with its inclined surface 50 on the bottom 3| of the piston cavity, in being rotated together with the shaft 3, forces the piston body I2 to carry out during one revolution of the shaft a wobbling motion centered in the ball 45 and bringing one radial section of the piston after the other into contact with the corresponding radial sections of the conical surface of the stationary pumping element 36. The piston, without participating in the rotary motion of the shaft head, merely establishes a ring shaped pumping chamber of wedge section between the two confronting faces of the piston I2- and element 36. The fingers 41 resist any tendency on the part of th piston I2 to rotate about its axis, which tendency might otherwise hinder the vane 39 from reciprocating freely in the slot 38 of the element 36.

Since the peripheral portions of the rubber disk 2! are tightly held between the casing l and its cover 31, the pumping mechanism and the fluid conveyed by it are altogether separated from the shaft and shaft head and from their bearings.

The vane 39 forming a partition is forced by the spring acting on it to follow the movement of the piston by reciprocating in the slot formed in the conical element 36.

The pumping cycle starts when the piston surface i2;contacts the l'portionof the conical surt face ofthe element36 traversed bytheslot 38 and the wobbling movement of the piston on the conical surface in creating a suction effect :on the suction conduit conveys the fiuidaa-roundithe chamber until it reaches the pressure conduit and is forced into it.

I wish it to be understoodthat I dd not desire to be limited to the exact details of construction shown and described, for obvious modifications will occur to a personskilled in the art.

I claim:

t i. Ac rotary .purnncomprising: in =.-combination.

,a. casing, an; intakez,andeant-exhaust north-in, the .Wall of 7 said casing, i tWO'i cooperating numping elements .in-a-fir-st. portion of: said casingplosely 1.

adjoining said;-1J01ts;. 0ner-element/being fixed; in said casing andvhavingeai conical isurface the .other element beinga; plane -1f aced piston-member arranged fonwobblingt motion about the apex latter; rotaryidriving mechanism ina: second portion of saicl" casingsandiiin loose operative-contacvwith thesrean faceLof said::pietonr member and rotatable 'rela-tivet tozfthezlatteii fort-effecting "said" wobbling motion :of; thec pistommemberzand" 'yieldable partitioning emeans se'alingly:extending between the circumference iof-lsaid piston? memi hers. and the innerasurface:of'said easing-swell and preventing: any :commimicationvbetween the first 'casing portion enclo'sing' said ports and pumping elements and the second "ca-sing portion enclosing said' driving me'chanism.

'2. The pump' or claiml, wherein said rotary driving mechanism'includes a rotary head-having an end' face inclined relative to the' axis" of: :ro-'

=-said planeface ofsaidupiston zmember andin permanent sliding contact witlrisaid inclinedaend face of the rotary-head.

Ia-"The pump of'blaim i;--wherein said-:first portion of the-casing-defines-a cylindrical com- ;partment with-said-one element"therein being "disposed coaxial Withthe axis of said-rotary drivtendingfrom one of the pumping elements, the

other of said elements being formed with recesses arranged to receive said fingers for pretventingr-relative rotation of said elements.

5. In a wobbling disc pump, the combination :.of =a casing, a driving shaft extending into said casing, aheadon said shaft having an oblique end face, a portion of said casing defining a cylindrical compartment, a wobbling disc in said compartment formed-:With a rim of spherical contour effectin sliding tangential .contact'with (of: said conical'; surface-1 andvincontact with the the innerisurface of; saidacylindrical .compartemenhsaid disc having. a .central recess-formed :.in,-Qne face and having a iflat bottom.,,against ewhich, said obliquesend face oiflthe head efiects .-s1idingengagement, the otheriopposite.facesof said .disc being. flat," astationary element in said compartment havingia conical face,.confrontin said flat faceiofntheadisc, universal hallnmeans engaging the. apex of said .conicalasurfacea-and thecenterof I said flatsurface for mounting said ,0 disc on said stationary; elementdn: a ,mannerpermitting wobblingof saiddisc relativettdsaidgstastationary element (and {at -i i-cirqumferentially tionary element, intake and exhaust ductsappening into said compartment-between .sa-icLdisc and spaced --locations,.;.-and means inesaid compart- I ment: separating, saideintake andexhaustn ducts.

ALBERT SALGUES.

References Citedflin.the..l,fileof .this patent 3 UNITEDTQSTA'IES} PATENTS 

